41973-35-7Relevant articles and documents
Antimicrobial Activity of Monoketone Curcuminoids Against Cariogenic Bacteria
Vieira, Tatiana M.,dos Santos, Isabella A.,Silva, Thayná S.,Martins, Carlos H. G.,Crotti, Ant?nio E. M.
, (2018/08/01)
We evaluated the antimicrobial activity of 25 monoketone curcuminoids (MKCs) against a representative panel of cariogenic bacteria in terms of their minimum inhibitory concentration (MIC) values. Curcumin A (10) displayed promising activity against Streptococcus mutans (MIC?=?50?μg/ml) and Streptococcus mitis (MIC?=?50?μg/ml) as well as moderate activity against S.?sanguinis (MIC?=?100?μg/ml), Lactobacillus casei (MIC?=?100?μg/ml), and Streptococcus salivarius (MIC?=?200?μg/ml). Results indicated higher activity of compound 10 than that of its bis-β-diketone analog. Additionally, compounds 3a (1,5-bis(4-methylphenyl)pentan-3-one) and 7b (1,5-bis(4-bromophenyl)pentan-3-ol) were moderately active against S.?mitis (MIC?=?100?μg/ml) and S.?salivarus (MIC?=?200?μg/ml).
Symmetrical bis(heteroarylmethoxyphenyl)alkylcarboxylic acids as inhibitors of leukotriene biosynthesis
Kolasa,Gunn,Bhatia,Basha,Craig,Stewart,Bouska,Harris,Hulkower,Malo,Bell,Carter,Brooks
, p. 3322 - 3334 (2007/10/03)
Symmetrical bis(quinolylmethoxyphenyl)alkylcarboxylic acids were investigated as inhibitors of leukotriene biosynthesis and 4,4-bis(4-(2-quinolylmethoxy)phenyl)pentanoic acid sodium salt (47·Na) met our design parameters for a drug candidate (ABT-080). This compound was readily synthesized in three steps from commercially available diphenolic acid. Against intact human neutrophils, 47·Na inhibited ionophore-stimulated LTB4 formation with an IC50 = 20 nM. In zymosan-stimulated mouse peritoneal macrophages producing both LTC4 and PGE2, 47·Na showed 9000-fold selectivity for inhibition of LTC4 (IC50 = 0.16 nM) over PGE2 (IC50 = 1500 nM). Preliminary pharmacokinetic evaluation in rat and cynomolgus monkey demonstrated good oral bioavailability and elimination half-lives of 9 and 5 h, respectively. Pharmacological evaluation of leukotriene inhibition with oral dosing was demonstrated in a rat pleural inflammation model (ED50 = 3 mg/kg) and a rat peritoneal passive anaphylaxis model (LTB4, ED50 = 2.5 mg/kg; LTE4, ED50 = 1.0 mg/kg). In a model of airway constriction induced by antigen challenge in actively sensitized guinea pigs, 47·Na dosed orally blocked bronchoconstriction with an ED50 = 0.4 mg/kg, the most potent activity we have observed for any leukotriene inhibitor in this model. The mode of inhibitory action of 47·Na occurs at the stage of 5-lipoxygenase biosynthesis as it blocks both leukotriene pathways leading to LTB4 and LTC4 but not PGH2 biosynthesis. However, 47·Na does not inhibit 5-lipoxygenase catalysis in a broken cell enzyme assay; therefore it is likely that 47·Na acts as a FLAP inhibitor.
